DE3810366A1 - Method for the production of a superstructure spandrel-braced on an arch supporting framework - Google Patents

Abstract

In the production of a beam-like superstructure, spandrel-braced on an arch supporting framework, by means of timed shifting, the unsymmetrical loads transmitted from the superstructure (1) during its advance over the arch (3) by the auxiliary bearings (6, 8, 6') on the arch (3) are carried into the arch (3) by suitable means - e.g. by means of presses controlled via lines (14) in the load take-up or with the aid of additional auxiliary loads as load pairs acting symmetrically to the crown (8) of the arch at the network points. <IMAGE>

Description

The invention relates to a method for producing one on one Arched superstructure superstructure, as is generic in the The preamble of claim 1 is described.

Is the superstructure in an arch bridge with elevated carriageway in the Tact shifting process produced, so the sheet receives when the Superstructure from an abutment side depending on the arch stand Position unilateral, unbalanced loads, the significant bow typical stresses, too uneconomical dimensioning of the arch for the constructional bending bean generate spells.

It is known from DE 36 16 109 in the manufacture of sheets structures of the genus according to the invention, the sliding bearing on the this side fighter post to form height-adjustable to by Raising this bearing when crossing the first half of the curve in the Bow registered one-sided load checked from the free end of the beak to be able to reduce. The disadvantage of this construction is that the asymmetry of the load entry is reduced, but not eliminated.

The object of the invention is to provide a method for producing a Arched superstructure on the superstructure with the help of the tact sliding process rens to indicate, where the loads symme when pushing the superstructure be applied trically to the bow.

The object is achieved by the characterizing part of claim 1 described method solved. Refinements and the procedure adapted superstructure are described in the further subclaims.

With the method according to the invention, the bow is closed in all construction would only be symmetrical and thus optimally loaded for its load-bearing capacity continuous This is achieved according to claim 2 by asymmetrically loads acting on the arch in pairs symmetrically to the Auxiliary bearings arranged at the apex of the arch are initiated hydraulic presses are interposed between the superstructure and the warehouse, which are connected to each other and only a symmetrical load distribution allow over the arch. By systematically relieving individual ver pairs of sliding bearings can be used to control the arch load. In addition can according to claims 4 to 6, if to avoid an oversized free cantilever length of the advanced superstructure with wide spans of the Beak over on a sliding bearing before reaching the arch apex the front half of the arch must be removed, the symmetrical load the bow by appropriate ballasting or by bracing the remote unloaded arch half can be reached.

The sub-claims 7-9 contain measures to strengthen the over construction that facilitate the application of the method according to the invention and support.

The invention is illustrated by FIGS. 1-6. Show it

Fig. 1-3 applying the method according to claim 1

Fig. 4 shows the application of the method according to claim 4

Fig. 5 shows the application of the method according to claim 5

Fig. 6 is a gain of the superstructure according to claim 9.

A superstructure 1 with Vorbauschnabel 2 is advanced over several fields and up on an arc 3 from the facing fighter 4 to the turned away fighter 4 'advanced. The stands for the superstructure are in network points 5 , 6 , 7,8 , 7 ', 6 ', 5 '.

Auxiliary bearings equipped with hydraulic presses can be arranged on the stands as required. In the examples shown, auxiliary bearings 10 above the apex 8 and auxiliary bearings 11 , 11 'and 12 , 12 ' above the network points 7 , 7 'and 6 , 6 ' are used. The hydraulic presses on associated auxiliary bearings 11 , 11 'and 12 , 12 ' are communicatively connected to one another by lines 13 and 14 , respectively. After driving over the crown bearing 10 , the superstructure according to the invention is always at least on a symmetrically arranged to the crown pair of associated auxiliary bearings - z. B. 11 , 11 'and 12 , 12 ' - discontinued at the same time. The line 13 or 14 ensures pressure equalization in the presses on the bearings and thus for equally large loads.

In the example of Fig. 4, the symmetry of the arc load when pushing the superstructure over the facing arch half 9 and using an auxiliary bearing 12 above the network point 6 in this arch half by attaching a ballast 15 corresponding to the bearing force of the auxiliary bearing 12 in the assigned network point 6 ' produced. Analogously, in the example of FIG. 5, the bearing force of the auxiliary bearing 12 is symmetrically compensated for by a vertical force 17 generated in the associated network point 6 'by means of guy wires 16 '.

Reinforcements 19 , 20 in the front area 18 of the superstructure 1 has the example according to FIG. 1. In the example according to FIG. 6, the superstructure 1 is reinforced by an eccentrically adaptable to the changing reinforcement of the bending moments against the reinforcement 20 arranged above the beam axis without connection.

Claims (9)

1. A method for producing a staggered on a arch structure, bar-like superstructure with the help of the cycle sliding method, the superstructure being pushed from one side of the arch over the entire arch structure and being supported by auxiliary bearings above the network points of the arch, characterized in that in Construction state when the superstructure ( 1 ) is pushed over the arch ( 3 ) unsymmetrical loads emitted by the superstructure using suitable means - if necessary with the help of additional auxiliary loads ( 15 , 17 ) - as load pairs acting symmetrically to the top of the arch ( 8 ) in the network points in the arch ( 3 ) must be entered. 2. The method according to claim 1, characterized in that
- That an overlong stem ( 2 ) - if necessary with simultaneous reinforcement of the superstructure cross section - is used for the feed over the arch ( 3 ), whose length together with the cantilevered overhang of the superstructure ( 1 ) is at least slightly larger than half the arch span ( 9 ),
- That the superstructure ( 1 ) from the pillar support over the fighter ( 4 ) without intermediate support until the attachment of the stem ( 2 ) on the first auxiliary bearing ( 10 ) over the vertex ( 8 ) of the arch ( 3 ) and advanced in Rich direction the opposing fighter ( 4 ′) is pushed on,
- That the superstructure ( 1 ) or the Vorbauschnabel ( 2 ) after sufficient driving over the next network point ( 7 ') of the arch ( 3 ) on a group symmetrically to the arch apex ( 8 ) on both sides via assigned network points ( 7 , 7 ') arranged auxiliary bearings ( 11 , 11 '), the load absorption is controlled by communicating hydraulic presses, is discontinued, the support ( 10 ) being relieved in the apex, and
- That with further advance of the superstructure ( 1 ) analogous to the symmetrical to the apex ( 8 ) lying auxiliary bearings ( 11 , 11 ') over the network points ( 7 , 7 ') when driving over subsequent network points with the associated auxiliary bearings - for example when driving over the Network point ( 6 ') by being supported on the auxiliary bearings ( 12 , 12 ') - until the stem ( 2 ) on the support of the opposing fighter ( 4 ) is raised. 3. The method according to claims 1 and 2, characterized characterized in pairs in the network groups are arranged symmetrically to the apex of the arch of auxiliary camps and the auxiliary camp in the crown in changing Combinations can be activated for different construction stages.   4. The method according to claim 1, characterized in that when feeding the superstructure over the sheet half facing the insertion ( 9 ) when using an auxiliary bearing (e.g. the auxiliary bearing 12 ) above a network point ( 6 ) - in this Arch half ( 9 ) resulting asymmetrical loading of the arch ( 3 ) is compensated by applying an equal Bal load ( 15 ) at the corresponding network point ( 6 ') of the arch half ( 9 '). 5. The method according to claim 1, characterized in that when feeding the superstructure over the sheet half facing the insertion ( 9 ) when using an auxiliary bearing - (z. B. the auxiliary bearing 12 ) over a network point ( 6 ) - in this half of the arch ( 9 ) resulting asymmetrical loading of the arch ( 3 ) by a at the corresponding network point ( 6 ') of the arch half ( 9 ') starting, a vertical force ( 17 ) generating, adjustable bracing ( 16 ) is compensated for. 6. The method according to claims 1-5, characterized in that when the superstructure ( 1 ) on the sheet half facing the insertion ( 9 ) several auxiliary bearings are used via network points in this half of the arch simultaneously and in different combinations, and that several compensation loads according to claims 4 and / or 5 in the respectively assigned network points of the bow half ( 9 ′) turned away. 7. superstructure for carrying out the method according to one of claims 1 to 6, characterized in that the beam-like component to be inserted is reduced in its weight in front of its area ( 18 ) by omitting the cross-sectional parts not required for the load-bearing effect in the construction states. 8. superstructure for carrying out the method according to one of claims 1 to 6, characterized in that the beam-like component to be inserted has reinforcements ( 19 , 20 ) in its front region ( 18 ) which increases its load capacity compared to the normal range. 9. superstructure for performing the method according to claim 6, characterized in that the reinforcement of the load-bearing capacity in an eccentric with respect to the Bal kenachse arranged reinforcement ( 21 ) be without composite, which the changing course of the bending moments by order construction, tensioning or relaxing Tendons is adaptable.